Post on 22-Oct-2021
Contact: ultracold-pi@physi.uni-heidelberg.de Homepage: ultracold.physi.uni-heidelberg.de
A New Experiment to Explore Quantum Matter:
Heidelberg Quantum Architecture Selim Jochim (jochim@physi.uni-heidelberg.de)
Philipp Preiß (preiss@physi.uni-heidelberg.de)
Tobias Hammel (hammel@physi.uni-heidelberg.de)
Homepage ultracold.physi.uni-heidelberg.de
Laser
Vacuum pumps
Super
small
glass cell
Magnetic field coils
(up to 0.2 Tesla)
Lithium oven
2D Magneto-
optical-trap
Mechanical Platform Design
Design versatile, modular optical and
mechanical systems
Get experience in CAD drawing, 3D printing
and testing your designs
Setting up lasers and optical tweezers
Trap, image and play with single atoms
Shape the dimensionality of atomic clouds
Detect phase transitions and other many-body
phenomena connecting to many parts of physics
Assemble quantum systems from scratch
High resolution optics
Design high performance
optics (with e.g. Zemax)
Implement the objective to
see individual atoms
Implement high power
IR lasers
Generate arbitrary optical
potentials with e.g. DMDs
Experimental control
Develop electronic modules
to control the experiment
PCB design
Synchronize the control
Program a full experimental
sequence from a bulk of
lithium to a single atom picture
Welcome to the
ultracold group!
We work on quantum simulation
with deterministically prepared
lithium atoms.
If you want to join our team there
are many possibilities for:
Projektpraktika
Bachelor and Masters theses
PhD theses
Just get in touch!
ultracold-pi@physi.uni-
heidelberg.de
Rapid optical lattice simulator
Optical lattice with single site resolution
Direct assembly from laser-cooled atoms
In-lattice rearrangement
Programmable initial states
Random unitary readout
New general probe of many-body systems
Fluctuations under random rotations
Information scrambling, entanglement etc